DE10251865B3 - Inhalation unit comprises an aerosol membrane generator with a vessel for a therapeutic liquid, a membrane and an oscillation generator - Google Patents

Abstract

Inhalation unit comprises aerosol membrane generator (2) with vessel (4) for a therapeutic liquid, membrane (6) in contact with the liquid (5), oscillation generator (7) which causes the membrane to oscillate, mixing chamber (3) and a breathing valve. The aerosol is formed in the chamber. The valve, formed from elastic material, allows air from the surroundings to enter the mixing chamber when breathing in but prevents the aerosol from leaving the chamber when breathing out.

Description

The invention relates to an inhalation therapy device with an aerosol membrane generator and a mixing chamber as well as a Inhalation valve.

With inhalation therapy devices of this kind can medicated liquids, liquid Drugs or other therapeutically usable liquids, for example, saline solutions to provide the patient with an aerosol for inhalation.

DE 199 53 317 A describes such an inhalation therapy device with a membrane aerosol generator, the membrane of which is vibrated by a vibration generator, whereby a liquid present on one side of the membrane is atomized through the membrane and released into a mixing chamber. In the mixing chamber, the aerosol mixes with ambient air during the inhalation process, which is fed to the mixing chamber through an annular gap formed around a liquid storage container. A flat circular inhalation valve is provided in the annular gap, which releases the annular gap during the inhalation phase and closes it during the exhalation phase.

If in the known nebulizer therapy A large part of the patient exhales into the device the air we breathe one in a mouthpiece the exhalation valve provided in the device directly in the vicinity, however, the aerosol membrane generator and the area of the Liquid storage container one Part of the breathing air exposed. This leads to undesirable ones Contamination of the aerosol generator.

The problem to be solved by the invention is against the background of this prior art in specifying an inhalation therapy device, in which the inhalation valve is designed so that the risk contamination of the aerosol membrane generator by the breathing air of the patient during the phases of exhalation is reduced.

This problem is solved by an inhalation therapy device with an aerosol membrane generator, with a liquid reservoir, in a drug-containing liquid is fillable, with a membrane that is on one side with the liquid container is related to a liquid filled in the liquid reservoir in touch with one side of the membrane, and with a vibration generator which the membrane can be set in vibration, so that an in liquid filled in the liquid reservoir through openings through the membrane on the other side of the membrane into one Aerosol atomized is a mixing chamber into which the aerosol membrane generator the aerosol generates, and an inhalation valve that is in inhalation phases allows the inflow of ambient air into the mixing chamber and in exhalation phases the aerosol escapes from the mixing chamber prevents forming a wall section of the mixing chamber, the has a funnel-like area, the tapered area End of a valve opening includes and extends to the aerosol membrane generator so that a the valve opening enclosing Edge in the rest position of the inhalation valve on a surface of the Aerosol membrane generator surrounds the membrane.

The funnel-like design of the Valve according to the invention causes on the one hand a dimensionally stable and flexible valve element provides the function as an inhalation valve and on the other hand a cheap one Flow guidance of the Supply air is achieved because the valve opening the membrane and thus the supply air surrounds the aerosol it produces. Through the one Funnel-like Design is thus achieved in that the aerosol in inhalation phases to a lesser extent in the mixing chamber.

By designing the inhalation valve as a wall section , it also defines the dimensions of the mixing chamber, which makes it immediately minimizes the space in contact with aerosol becomes. In other words, the funnel-like according to the invention Design in the form of a wall section becomes an area for the inhalation valve avoided that in addition to the mixing chamber and then comes into contact with aerosol. The cleaning of the therapy device is correspondingly easier.

In an advantageous embodiment the funnel-like area of the inhalation valve is rounded, conical, stepped or meandering is designed.

To increase shape stability and protection the valve against damage the edge of the valve opening advantageously has a thickening all around or a bead.

To make the inhalation valve easier manageable and against damage protected the inhalation valve has an edge section next to the valve element on. The edge area is preferably for holding the inhalation valve, especially for pinching between the aerosol generator and the mixing chamber designed.

On the one hand, it is sufficiently dimensionally stable and at the same time being flexible enough the inhalation valve is preferably made of an elastic material.

The invention is explained below of an embodiment and explained in more detail with reference to the drawings. In the drawings show:

1A a sectional view of an inhalation device according to the invention with the inhalation valve closed;

1B a sectional view of an inhalation device according to the invention with the inhalation valve open;

2A . 2 B and 2C alternative configurations of an inhalation valve according to the invention; and

3A and 38 perspective views of an inhalation valve according to the invention.

The 1A and 1B show an embodiment of an inhalation therapy device according to the invention 1 which is an aerosol membrane generator 2 and a mixing chamber 3 having. In the exemplary embodiment shown, the two components are designed as separate units which are connected to one another in a suitable manner in the region of the inhalation valve, so that both components can be safely handled as a functional unit.

The aerosol generator 2 of the embodiment 1A includes a liquid reservoir 4 , in which a medicated liquid 5 is fillable, and a membrane 6 holding the liquid reservoir 4 in an open area. As a result, the membrane stands 6 on one side with the liquid container 4 in connection such that the liquid filled into the liquid storage container 5 one side of the membrane 6 touched. On the membrane 6 is a vibration generator 7 , for example a piezo element, arranged through which the membrane 6 is vibrated when the vibration generator 7 is controlled. In the embodiment shown here are membrane 6 and vibration generator 7 designed rotationally symmetrical, so that the vibration generator 7 concentrically surrounds the membrane.

Becomes the vibration generator 7 the membrane is excited, that is to say, for example, the piezo element is subjected to an alternating voltage 6 vibrated so that the liquid filled in the liquid reservoir and standing on the membrane 5 is conveyed through openings in the membrane to the other side of the membrane and atomized there to form an aerosol. The aerosol is in the mixing chamber 3 handed in.

At the in 1A The embodiment shown is also a mouthpiece 10 provided that in the example shown in one piece with the mixing chamber 3 is formed, but also in a modified embodiment from the mixing chamber 3 can be designed separable. Via the mouthpiece 10 the patient inhales that from the aerosol membrane generator 2 generated and into the mixing chamber 3 dispensed aerosol when inhaled through the mouthpiece.

During the inhalation phase, ambient air flows through supply air ducts 8th that in the aerosol membrane generator 2 are trained in the therapy device and enters the mixing chamber 3 , like especially from 1B is evident; the flow of the supply air is in 1B with the arrow lines 9 indicated. According to the invention, an inhalation valve is used to control the supply air 20 provided that allows the inflow of ambient air into the mixing chamber during inhalation phases, such as 1B shows, but the supply air ducts in exhalation phases 9 closes in such a way that the exhaled breath does not pass through the supply air ducts 9 flows like 1A shows. This prevents the inhalation valve according to the invention 20 that in exhalation phases the aerosol with the breathing air through the supply air channels 9 is transported out of the mixing chamber and that breathing air into the supply air ducts 9 arrives. This will result in the aerosol generator 2 the area around the liquid container 4 around, in which there are often also other components, for example electrical connections for controlling the piezo crystal, protected from breathing air and thus from contaminants that enter the therapy device with the breathing air. The inhalation valve according to the invention thus protects the interior of the aerosol generator during the exhalation phases.

The exhaled air is released from the mixing chamber in a different way 3 or the mouthpiece 10 performed, for example via the known mouthpiece valve 32 . 321 . 322 , the functioning of which is not discussed in detail here.

According to the invention, the valve element forms 21 of the inhalation valve 20 , as in 1A and 1B shown a wall section of the mixing chamber 3 in which there is an open wall area of the mixing chamber 3 closing added. The valve element 21 of the inhalation valve 20 includes a valve opening 22 that is formed by the valve element 21 how out 1A and 1B can be removed, is formed at least in regions tapering like a funnel. Through the funnel-like area 23 of the inhalation valve 20 becomes a sufficiently dimensionally stable valve element 21 created by opening it 22 the supply air into the mixing chamber 3 can flow when the patient inhales. Because in the inhalation phases, the valve element resembles a funnel 21 from the rest position, to which it always returns automatically due to its shape stability and elasticity, deflected and there, as in 1B is shown, a gap through which the supply air enters the inhalation valve 20 can happen.

Because the gap is close to the membrane 6 and forms this surrounding, a flow guidance of the supply air supporting aerosol generation is achieved. Because the supply air encloses the membrane 6 dispensed aerosol, thus reducing the risk of the aerosol quickly hitting a wall of the mixing chamber 3 meets and separates there. This is also a particular advantage of the inhalation valve according to the invention.

In contrast, the valve element is in the rest position 21 on a surface of the aerosol generator 2 on how 1A shows so that no gap between the aerosol generator and the valve element 21 is available. Furthermore, the edge surrounds in the rest position 24 the valve opening 22 the Memb ran 6 of the aerosol generator, the valve opening 22 is preferably circular, in particular if the membrane too 6 and the vibration generator 7 are also circular.

Out 1A and 1B it follows that the tapering area 23 of the valve element 21 according to the invention to the aerosol membrane generator 2 extends that the edge surrounding the opening 24 on a surface of the aerosol generator 2 the membrane 6 is arranged surrounding. The surface of the aerosol generator 2 forms in a way with the in 1A Embodiment shown the valve seat for the valve element 21 of the inhalation valve 20 ,

In 1A and 1B it is further shown that the valve element 21 at the edge of the valve opening 22 a circumferential bulge or thickening 24 has, whereby the opening edge is reinforced and the shape stability is increased. In particular, it is due to this design of the edge of the valve opening 22 possible to reliably prevent the valve element from breathing air flow in the normally occurring breathing air flows 21 to the extent that it is completely in the mixing chamber 3 extends into it and takes on a new stable position from which it does not move into the 1A shown rest position returns. At the same time, the bead decreases 24 at the edge of the valve opening 22 the risk that this area of the valve element 21 is damaged.

As in 1A and 1B shown, the funnel-like shape of the valve element according to the invention 21 be achieved by a rounded wall; however, other wall shapes are also conceivable, for example the one in 2A shown conical-flat course, the in 2 B shown step course or the in 2C meandering course shown.

At the in 1A and 1B The embodiment shown is the inhalation valve 20 between a wall section 31 of the aerosol generator 2 and a wall section 31 the mixing chamber 3 arranged and preferably held, for example clamped, that the inhalation valve 20 securely fixed and its valve opening 22 is positioned exactly. The inhalation valve 20 has an outer edge portion 25 on that for the mounting / fixation on the aerosol generator 2 and / or the mixing chamber 3 is trained. This is particularly advantageous in 1A and 1B shown embodiment also because the inhalation valve 20 to seal the connection point between the aerosol generator 2 and mixing chamber 3 is used. This is the edge section 25 of the inhalation valve 20 to the front cross-sections of the aerosol generator 2 and the mixing chamber 3 customized. The 3A and 3B show that the adjustment of the edge section 25 can go very far, but always easily a transition to the funnel-like valve element according to the invention 21 with valve opening 22 can be created. However, this type of adaptation ensures that the material of the inhalation valve, which is basically suitable for sealing purposes 20 also for sealing the transition between aerosol generator 2 and mixing chamber 3 is used. It also follows that the inhalation valve according to the invention 20 is preferably formed in one piece.

Claims (6)

Inhalation therapy device with an .an aerosol membrane generator ( 2 ), i. with a liquid storage container ( 4 ), into which a therapeutically usable liquid ( 5 ) is fillable, ii. with a membrane ( 6 ) on one side with the liquid container ( 4 ) is connected in such a way that a liquid filled into the liquid storage container ( 5 ) in contact with one side of the membrane ( 6 ), and iii. with a vibration generator ( 7 ) through which the membrane ( 6 ) can be set in vibration so that a liquid filled into the liquid storage container ( 5 ) through openings in the membrane ( 6 ) is atomized into an aerosol on the other side of the membrane, b. a mixing chamber ( 3 ) into which the aerosol membrane generator ( 2 ) generates the aerosol, and c. an inhalation valve ( 20 . 21 ), i. in the inhalation phases the inflow of ambient air into the mixing chamber ( 3 ) and during exhalation phases the aerosol can escape from the mixing chamber ( 3 ) prevents ii. one wall section of the mixing chamber ( 3 ) forms, iii. that a funnel-like area ( 23 ), the tapered end of which has a valve opening ( 22 ) and becomes an aerosol membrane generator ( 2 ) extends so that the valve opening ( 22 ) surrounding edge ( 24 ) in the resting position of the inhalation valve ( 20 . 21 ) on a surface of the aerosol membrane generator ( 2 ) the membrane ( 3 ) is arranged around. Inhalation therapy device according to claim 1, characterized in that the funnel-like area ( 23 ) of the inhalation valve ( 20 ) is rounded, conical-flat, stepped or meandering. Inhalation therapy device according to claim 1 or 2, characterized in that the edge ( 24 ) the valve opening ( 21 ) has a thickening or a bead all around. Inhalation therapy device according to claim 1, 2 or 3, characterized in that the inhalation valve ( 20 ) a valve element ( 21 ) and one Edge section ( 25 ) having. Inhalation therapy device according to claim 4, characterized in that the edge region ( 25 ) for holding the inhalation valve ( 20 ), especially for getting caught between the aerosol generator ( 2 ) and mixing chamber ( 3 ) is designed. Inhalation therapy device according to one of the preceding claims, characterized in that the inhalation valve ( 20 ) is made of an elastic material.